Author Title [ Type(Desc)] Year
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Journal Article
Paesani F, Zhang W, Case DA, Cheatham, T. E. 3rd, Voth GA. An Accurate and Simple Quantum Model for Liquid Water. J Chem Phys. 2006 ;125:184507.
Iuchi S, Chen H, Paesani F, Voth GA. The Hydrated Excess Proton at Water-Hydrophobic Interfaces. J. Phys. Chem. B. 2009 ;113:4017-4030.
Wu Y, Chen H, Wang F, Paesani F, Voth GA. An Improved Multistate Empirical Valence Bond Model for Aqueous Proton Solvation and Transport. J. Phys. Chem. B. 2008 ;112:467-482.
Paesani F, Xantheas SS, Voth GA. Infrared Spectroscopy and Hydrogen-Bond Dynamics in Liquid Water from Quantum Simulations. J. Phys. Chem. B. 2009 ;113:13118–13130.
Paesani F, Voth GA. Nonlinear Quantum Time Correlation Functions from Centroid Molecular Dynamics and the Maximum Entropy Method. J. Chem. Phys. 2008 ;129:194113.
Paesani F, Voth GA. The Properties of Water: Insights from Quantum Simulations. J. Phys. Chem. B. 2009 ;113:5702–5719.
Wong KF, Sonnenberg JL, Paesani F, Yamamoto T, Vaníček J, Zhang W, Schlegel HB, Case DA, T. E. Cheatham III, Miller WH, et al. Proton Transfer Studied Using a Combined Ab Initio Reactive Potential Energy Surface with Quantum Path Integral Methodology. J. Chem. Theor. Comp. 2010 ;6:2566–2580.
Paesani F, Voth GA. A Quantitative Assessment of the Accuracy of Centroid Molecular Dynamics for the Calculation of the Infrared Spectrum of Liquid Water. J. Chem. Phys. 2010 ;132:014105.
Paesani F, Iuchi S, Voth GA. Quantum Effects in Liquid Water from an Ab Initio-Based Polarizable Force Field. J. Chem. Phys. 2007 ;127:074506.
Paesani F, Voth GA. Quantum Effects Strongly Influence the Surface Premelting of Ice. J. Phys. Chem. C. 2008 ;112:324-327.
Markovitch O, Chen H, Izvekov S, Paesani F, Voth GA, Agmon N. Special Pair Dance and Partner Selection: Elementary Steps in Proton Transport in Liquid Water. J. Phys. Chem. B. 2008 ;112:9456-9466.
Li C, Paesani F, Voth GA. Static and Dynamic Correlations in Water: Classical Ab Initio Molecular Dynamics Run at an Elevated Temperature May Not Capture Well Explicit Nuclear Quantum Effects at Ambient Temperature. J. Chem. Theory Comp. . Submitted .